CN217019121U - Built-in fitting welding process device - Google Patents

Abstract

The utility model discloses a welding processing device for an embedded part, belonging to the technical field of welding processing of electric auxiliary devices; it comprises a main pillar; a cross plate is arranged at the top of the main strut; four through holes are symmetrically formed at the four extending ends of the crossed plate; the upper part of the auxiliary support frame group is detachably arranged at the through hole of the crisscross plate, and the lower part of the auxiliary support frame group is arranged at the end angle position of the steel plate to be welded; a pipe sleeve clamping piece is also detachably arranged at the position of the auxiliary support group opposite to the through hole; the pipe sleeve clamping piece penetrates through the through hole and the auxiliary support group to be arranged, a guide hole is formed in the pipe sleeve clamping piece in the axial direction, the size of the guide hole is matched with the outer diameter of a steel bar to be welded, and the steel bar is installed in the guide hole through a locking limiting piece; the utility model effectively solves the problems that the welding quality cannot be ensured and the working efficiency is low when the embedded part of the square cable support is processed at present.

Description

Built-in fitting welding process device

Technical Field

The utility model relates to the technical field of welding processing of electric power auxiliary devices, in particular to a welding processing device for an embedded part.

Background

The embedded cable support is required to be widely used in power equipment, the structural specification of the cable support is not clearly specified in China, and at present, in order to save cost, a plurality of construction companies choose to weld reinforcing steel bar broken bars and steel plates on site to obtain the embedded cable support. There is a cable support structure as shown in figure 1 of the accompanying drawings; in the time of actual welding operation, generally through placing the steel sheet on the platform, by the welder of operating personnel holding by one hand, hold the reinforcing bar by one hand and carry out welding operation, just can't guarantee welding quality under this kind of condition operation that lacks welding jig, welding rate is slower simultaneously, can't cooperate the time limit for a project to carry out instant processing.

SUMMERY OF THE UTILITY MODEL

The technical problem to be solved by the utility model is as follows: the utility model provides an embedded part welding processingequipment to solve current welding quality can't obtain guaranteeing when processing the embedded part of square cable support, problem that work efficiency is low.

In order to solve the problems, the utility model provides the following technical scheme:

an embedded part welding processing device; it comprises a main pillar; a cross plate is arranged at the top of the main strut; four through holes are symmetrically formed at the four extending ends of the crossed plate; the upper part of the auxiliary support group is detachably arranged at the through hole of the crossed plate, and the lower part of the auxiliary support group is arranged at the end angle position of the steel plate to be welded; a pipe sleeve clamping piece is also detachably arranged at the position of the auxiliary support group opposite to the through hole; the pipe sleeve clamping piece penetrates through the through hole and the auxiliary support group to be arranged, a guide hole is formed in the pipe sleeve clamping piece in the axial direction, the size of the guide hole is matched with the outer diameter of a steel bar to be welded, and the steel bar is installed in the guide hole through the locking limiting piece.

Preferably, the main pillar is of a telescopic straight rod structure, and the middle part of the cross plate is hinged to the telescopic end at the top of the main pillar.

Preferably, the cross plate is a symmetrical structure with two rectangular plates with equal length hinged at the middle part; the through holes are also symmetrically arranged on the cross plate.

Preferably, the auxiliary support group comprises four clamping plates with the same structure; the clamping plate is of a straight plate structure with an L-shaped section, the clamping plate is vertically arranged, and the upper part of the clamping plate is provided with an extension plate which is horizontally arranged; the extension plate is provided with a positioning step with the size matched with the through hole on the cross plate; the positioning step is provided with a positioning hole, and the pipe sleeve clamping piece penetrates through the positioning hole to be arranged.

Furthermore, a connecting plate is arranged between two pairs of clamping plates which are adjacently arranged on the auxiliary support group; the two connecting plates are parallel to each other.

Preferably, the pipe sleeve clamping piece is made of elastic plastic materials; the outer part of the pipe sleeve clamping piece is provided with an external thread section; the locking limiting part is a nut component matched with the external thread section of the pipe sleeve clamping piece; a cutting groove is axially formed on the pipe wall of the pipe sleeve clamping piece from the top side; the cutting groove extends to the middle position of the pipe sleeve clamping piece; the hole diameter of the guide hole becomes larger gradually from the top side to the bottom as the cutting groove extends.

Preferably, the outer diameter of the pipe sleeve clamping piece is smaller than the diameter of the positioning hole in the auxiliary support group; the locking limiting part is arranged at the top of the cross plate, and the outer diameter of the locking limiting part is larger than the aperture of the through hole in the cross plate.

The utility model has the beneficial effects that:

the utility model designs a device capable of welding cable support embedded parts with square plate structures, which is characterized in that a main support column and an auxiliary support group are respectively arranged as supporting pieces at the right-angle positions of the middle part and the peripheral side of a steel plate to be welded, the main support column and the auxiliary support group are connected and installed by using a cross plate to complete the limit of the auxiliary support, finally, a steel bar to be welded is positioned by a pipe sleeve clamping piece installed on the auxiliary support, and finally, the effective contact between the steel bar and the steel plate is ensured by a locking limiting piece, so that an operator can weld conveniently.

Drawings

FIG. 1 is a welded embedment structure of the present invention;

fig. 2 is a schematic structural view of the utility model in the present embodiment;

FIG. 3 is a schematic view of the pipe sleeve fastener and the locking limiter of the present embodiment;

FIG. 4 is a schematic view of the pipe sleeve fastener and the locking limiter of the present embodiment;

description of reference numerals: 1. main tributary post, 2, cross board, 3, auxiliary stand group, 3A, cardboard, 3B, extension board, 3C, location step, 3D, connecting plate, 4, pipe box fastener, 4A, guiding hole, 4B, grooving, 5, locking locating part.

Detailed Description

The utility model will be further described with reference to the following drawings and specific embodiments:

example (b):

referring to fig. 1, the embodiment provides an embedded part welding processing device; it comprises a main pillar 1; a cross plate 2 is arranged at the top of the main strut 1; four through holes are symmetrically formed at the four extending ends of the cross plate 2; the upper part of the auxiliary support group 3 is detachably arranged at the through hole of the crossed plate 2, and the lower part is arranged at the end angle position of the steel plate to be welded; a pipe sleeve clamping piece 4 is also detachably arranged at the position of the auxiliary support group 3 opposite to the through hole; the pipe sleeve clamping piece 4 penetrates through the through hole and the auxiliary support group 3 to be arranged, a guide hole 4A is formed in the pipe sleeve clamping piece 4 in the axial direction, the size of the guide hole 4A is matched with the outer diameter of a steel bar to be welded, and the steel bar is installed in the guide hole 4A through the locking limiting piece 5.

The main supporting column 1 is of a telescopic straight rod structure, and the middle part of the cross plate 2 is hinged to the telescopic end of the top of the main supporting column 1.

The cross plate 2 is a symmetrical structure with two rectangular plates with equal length hinged at the middle part; the through holes are also symmetrically arranged on the cross plate 2.

The auxiliary support group 3 comprises four clamping plates 3A with the same structure; the clamping plate 3A is of a straight plate structure with an L-shaped section, the clamping plate 3A is vertically arranged, and the upper part of the clamping plate 3A is provided with an extension plate 3B which is horizontally arranged; a positioning step 3C with the size matched with the through hole on the crossed plate 2 is arranged on the extension plate 3B; a positioning hole is formed in the positioning step 3C, and the pipe sleeve clamping piece 4 penetrates through the positioning hole to be arranged. It should be noted that the crisscross plate 2 in this embodiment is a two-plate structure stacked up and down, so the mounting height of the extension plate 3B on one set of the diagonal clamping plate a will be slightly lower than that of the other set of extension plate to adapt to the height difference between the two rectangular plates on the crisscross plate.

A connecting plate 3D is also arranged between two pairs of clamping plates 3A which are adjacently arranged on the auxiliary support group 3; the two connecting plates 3D are parallel to each other.

The pipe sleeve clamping piece 4 is made of elastic plastic material; the outer part of the pipe sleeve clamping piece 4 is provided with an external thread section; the locking limiting part 5 is a nut component matched with the external thread section of the pipe sleeve clamping piece 4; a cutting groove 4B is axially arranged on the pipe wall of the pipe sleeve clamping piece 4 from the top side; the cutting groove extends to the middle position of the pipe sleeve clamping piece 4; the hole size of the guide hole 4A becomes larger gradually as the cutting groove 4B extends downward from the top side.

The outer diameter of the pipe sleeve clamping piece 4 is smaller than the aperture of a positioning hole on the auxiliary bracket group 3; the locking limiting part 5 is arranged at the top of the cross plate 2, and the outer diameter of the locking limiting part 5 is larger than the hole diameter of the through hole in the cross plate 2.

When using the utility model discloses in the embodiment device, at first will treat welded steel sheet and arrange a platform in on, will assist support group again and press from both sides the four corners position at the steel sheet, and arrange the middle part position of steel sheet in with the king-post, after this on the mid-mounting king-post with the cross board, the mounted position of adjustment king-post and high four through-holes that make the cross board stretch out to hold can cooperate with the location step on the extension board, accomplish the fixed to the steel sheet from this, take locking locating part to arrange guiding hole department in after inserting the reinforcing bar in the pipe box fastener again, can carry out welding operation after locking locating part fixed steel bar through screwing. After the welding is completed, the current rod frame structure is kept still, the locking limiting part is unscrewed, the cross-shaped cross plate is taken down, the finished product after the welding is completed can be taken out by pulling out the clamping plate group on one side of the steel plate, and then the new steel plate structure is installed for repeated matching welding.

Claims (7)

1. The utility model provides an embedded part welding processingequipment which characterized in that: it comprises a main pillar (1); a cross plate (2) is arranged at the top of the main strut (1); four through holes are symmetrically formed at the four extending ends of the cross plate (2); the upper part of the auxiliary support group (3) is detachably arranged at the through hole of the crossed plate (2), and the lower part of the auxiliary support group is arranged at the end angle position of the steel plate to be welded; a pipe sleeve clamping piece (4) is also detachably arranged at the position of the auxiliary support group (3) opposite to the through hole; the pipe sleeve clamping piece (4) penetrates through the through hole and the auxiliary support group (3) to be arranged, a guide hole (4A) is formed in the pipe sleeve clamping piece (4) in the axial direction, the size of the guide hole (4A) is matched with the outer diameter of a steel bar to be welded, and the steel bar is installed in the guide hole (4A) through the locking limiting piece (5).

2. The embedded part welding processing device according to claim 1, wherein: the main support column (1) is of a telescopic straight rod structure, and the middle part of the crossed plate (2) is hinged to the telescopic end of the top of the main support column (1).

3. The embedded part welding processing device according to claim 1, wherein: the cross plate (2) is a symmetrical structure with two rectangular plates with equal length hinged in the middle; the through holes are also symmetrically arranged on the cross plate (2).

4. The embedded part welding processing device according to claim 1, wherein: the auxiliary support group (3) comprises four clamping plates (3A) with the same structure; the clamping plate (3A) is of a straight plate structure with an L-shaped section, the clamping plate (3A) is vertically arranged, and the upper part of the clamping plate (3A) is provided with an extension plate (3B) which is horizontally arranged; a positioning step (3C) with the size matched with the through hole on the cross plate (2) is arranged on the extension plate (3B); a positioning hole is formed in the positioning step (3C), and the pipe sleeve clamping piece (4) penetrates through the positioning hole to be arranged.

5. The embedded part welding processing device according to claim 4, wherein: a connecting plate (3D) is also arranged between two pairs of clamping plates (3A) which are adjacently arranged on the auxiliary support group (3); the two connecting plates (3D) are parallel to each other.

6. The embedded part welding processing device according to claim 1, wherein: the pipe sleeve clamping piece (4) is made of elastic plastic material; the outer part of the pipe sleeve clamping piece (4) is provided with an external thread section; the locking limiting piece (5) is a nut component matched with the external thread section of the pipe sleeve clamping piece (4); a cutting groove (4B) is formed on the pipe wall of the pipe sleeve clamping piece (4) from the top side along the axial direction; the cutting groove extends to the middle position of the pipe sleeve clamping piece (4); the diameter of the guide hole (4A) is gradually increased from the top side to the bottom side along with the extension of the cutting groove (4B).

7. The embedded part welding processing device according to claim 1, wherein: the outer diameter of the pipe sleeve clamping piece (4) is smaller than the aperture of a positioning hole on the auxiliary bracket group (3); the locking limiting part (5) is placed at the top of the cross plate (2), and the outer diameter of the locking limiting part (5) is larger than the hole diameter of the through hole in the cross plate (2).

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